Convertible filtration system

ABSTRACT

A convertible filtration system for use with cartridge filters and bag-type filters for filtering contaminated fluids comprising a filtration system housing, a base attached to the filtration system housing, and a lid mechanism for generating sealing pressure between the lid mechanism and the filtration system housing. The filtration system housing includes a basket support flange and an integral basin for accommodating both cartridge and bag-type filters. When fluid is introduced into the filtration system housing through one or more fluid inlet ports, the basket support flange and integral basin additionally serve to prevent contaminated fluids from contaminating any filtered fluids that exit the filtration system housing through one or more fluid outlet ports.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a divisional of, and claims priority to, U.S. patentapplication Ser. No. 13/941,858, filed Jul. 15, 2013, entitled“Convertible Filtration System,” the entirety of which application isexpressly incorporated by reference herein.

BACKGROUND OF THE INVENTION

Embodiments of the present invention relate to the removal ofcontaminants from a lubrication and/or hydraulic system, and moreparticularly to a convertible filtration container which can be easilyadapted for bag-type and cartridge filters for the removal of saidcontaminants.

The use of different types of filters to remove contaminants from avariety of liquids, including lubricants and hydraulic fluids, is knownin the art. For instance, bag-type filters may generally be used forsimple filtration operations. Typically, a fluid is introduced to thebag-type filter medium through an external source. The fluid travelsthrough the filter and then out of the filter and, generally, out of thefiltration system. In the process, contaminants, such as particulatematter and other waste products, may be left behind in the filter.Accordingly, the bag-type filter may be removed from the filtrationsystem after use and disposed of or cleaned for reuse.

Bag-type filters may comprise a variety of materials, such aspolypropylene, polyester, nylon and polytetrafluoroethylene (PTFE).Additionally, these filters may provide different levels of filtration,dependent upon the types of weave used to generate the filtration mesh.In some applications, bag-type filters may be made to be disposable. Adisposable bag-type filter may need to be disposed of when it hascaptured enough particulate matter to become obstructed or otherwiseless effective.

Different types of cartridge filters are also known in the art. Forinstance, cartridge filters may be designed to be disposable upon asingle use or multiple uses. Alternatively, cartridge filters may bereusable and thus may require cleaning after one or more uses. Cartridgefilters may be manufactured in many different shapes and sizes but aregenerally cylindrical in shape to fit a variety of filtration canistersin which they are housed. A cartridge filter may be configured toinclude a central hollow cavity while the surrounding peripheralmaterial may comprise one or more porous filtration media, such aspolyester felt with granular activated carbon, steel mesh, pleatedpolypropylene and the like. Filtration using a cartridge filter maytypically involve a fluid flowing through the porous media of the filterand into the central hollow cavity of the cartridge filter. Anycontaminants may be left behind on the filtration media. The filteredfluid may flow through the central hollow cavity of the filter and outof the filtration system.

There are several issues that may arise in the design and implementationof a convertible filtration system configured to accept both bag-typeand cartridge filters. For instance, one of the issues that must beaddressed in any filtration system design is the prevention ofcontaminants from being reintroduced into a filtered fluid. This issueis particularly prevalent in filtration systems that utilize removablefilters or that process high-pressure flows. In some systems, theprocess of converting from a cartridge filter to a bag-type filter andvice-versa may require significant time, effort and expense to perform.Thus, there is a need in the art for a convertible filtration systemthat prevents contamination of filtered fluids while at the same timeprovides a simple method for converting from a bag-type filtrationsystem to a cartridge filtration system, and vice-versa.

SUMMARY OF THE INVENTION

Embodiments of the present invention provide for an improved convertiblefiltration system which provides a simple method for converting todifferent filtration methods according to the current needs of a user ofthe filtration system. The basic components of the convertiblefiltration system include a filtration system housing configured tointerchangeably receive a cartridge filter assembly or a bag-type filterassembly which may include one or more fluid inlet ports for theintroduction of contaminated fluids into the system and a basket supportflange attached to the inner circumferential periphery of the filtrationsystem housing; a base which includes one or more fluid outlet ports forexpelling filtered fluids from the system and an integral basin foraccommodating a cartridge filter; and a lid mechanism releasablyattached to the filtration system housing through one or more housingdevises used to generate sealing pressure between a lid and thefiltration system housing.

In an embodiment, the cartridge filter assembly may include a pluralityof components configured to provide sealing contact between a cartridgefilter and the integral basin. For instance, the cartridge filterassembly may include a filter cap which may be configured to providesealing contact between a lower surface of the filter cap and an uppersurface of a cartridge filter, including covering the central hollowcavity of the filter. The filter cap may include a hole through thecenter of the cap which may accommodate a stem. Additionally, the filtercap may include a plurality of stiffeners to provide structural supportand stability to the hole. A user may insert a stem through the hole,which in turn may include a filter cap handle which may be used toprovide additional sealing pressure between the filter cap and thecartridge filter and between the cartridge filter and the integralbasin. The hole, stem, and filter cap handle may be threaded to provideadditional protection against contaminated fluid leakage into thecentral hollow cavity of the filter. The filter cap handle may includeone or more handle arms shaped at its outer extremity as a circular arcwith length based on the circumference of the inner circumferentialsurface of the filtration system housing upper edge. This may enable auser to insert a cartridge filter assembly into the filtration systemhousing by aligning the filter handle with filter cap handle insertiongrooves that may be found on the inner periphery of the housing upperedge and rotating the cartridge filter assembly into place.

As noted above, the convertible filtration system may be configured toaccommodate a bag-type filter assembly. In an embodiment, the bag-typefilter assembly may include a filter basket which may be inserted intothe filtration system housing. The filter basket may be configured toinclude a rim designed to sit on the upper surface of the basket supportflange when the filter basket is inserted into the filtration systemhousing, suspending the main body of the filter basket in the maincavity of the filtration system housing. The filter basket may beconfigured to receive a bag-type filter such that the open end of thebag-type filter may be engaged to the rim.

Once a cartridge filter assembly or a bag-type filter assembly has beenintroduced into the convertible filtration system, a contaminated fluidmay be introduced into the filtration system through the one or morefluid inlet ports along the outer periphery of the filtration systemhousing. The contaminated fluid may then flow either into the bag-typefilter or around the outer periphery of the cartridge filter.Contaminants may be removed through the use of the filters and allowfiltered fluids to flow into the base and out of the filtration systemhousing through the one or more fluid outlet ports. The cartridge filterassembly is such that filtered fluids may flow through a central hollowcavity and into the base through a hole located on the bottom surface ofthe integral basin. Alternatively, if using a bag-type filter with afilter basket, filtered fluids may flow through the bag-type filter andbasket into the main filtration system housing below the basket supportflange. The filtered fluids may then flow into the integral basin,through the hole in the integral basin and out of the filtration systemhousing through the one or more fluid outlet ports.

As can be seen, it is possible with the present filtration systemhousing configuration, and associated cartridge filter and bag-typefilter assemblies to easily remove a bag-type filter and introduce acartridge filter (and vice versa) without the need for significanthardware manipulation. This, in turn, may reduce the time spentconverting the filtration system housing for use with differentfiltration types, which may also reduce the expense of purchasing andstoring additional hardware to accommodate different types of filtersand the cost of labor to perform the conversion process.

These and other objects and advantages of this invention will becomeapparent from the following descriptions, accompanying figures, andappended claims.

BRIEF DESCRIPTION OF THE DRAWINGS

Various embodiments in accordance with the present disclosure will bedescribed with reference to the drawings, in which:

FIG. 1 is a partially exploded perspective view of a convertiblefiltration system with various components that comprise the filtrationsystem;

FIG. 2 is a perspective view of a cartridge filter system with variouscomponents that are inserted into the filtration system;

FIG. 3 is a longitudinal section view of a housing of the filtrationsystem showing a circumferential upper flange for accommodating abag-type filter and a circumferential lower integral basin foraccommodating the cartridge filter.

FIG. 4 is an enlarged view of a lower portion of the housing of thefiltration system of FIG. 3 showing the circumferential lower integralbasin for accommodating a cartridge filter;

FIG. 5 is a longitudinal section view of an upper portion of the housingof the filtration system of FIG. 3 showing the circumferential upperflange for accommodating a bag-type filter and a lid mechanism in aclosed position;

FIG. 6 is a longitudinal sectional view of the housing of the filtrationsystem in FIG. 3 showing a longitudinal sectional view of a basketinsert for accommodating a bag-type filter installed in the filtrationsystem;

FIG. 7 is a perspective view of the filtration system showing a handleand stem used to secure and seal a cartridge filter within thefiltration system housing;

FIG. 8 is a longitudinal sectional view of the filtration system of FIG.7 shown accommodating a cartridge filter with a handle and stemintegrally screwed into a filter cap to create a filter seal; and

FIG. 9 is a perspective view of the filtration system showing the lidmechanism engaged to the housing of the filtration system and variouscomponents that comprise the filtration system.

DETAILED DESCRIPTION

In the following description, various embodiments will be described. Forpurposes of explanation, specific configurations and details are setforth in order to provide a thorough understanding of the embodiments.However, it will also be apparent to one skilled in the art that theembodiments may be practiced without the specific details. Furthermore,well-known features may be omitted or simplified in order not to obscurethe embodiment being described.

FIG. 1 is an illustrative example of a plurality of components that maycomprise a convertible filtration system 10. The convertible filtrationsystem 10 may include a filtration system housing 11, a base 25 and alid mechanism 40. The filtration system housing 11, base 25 and lidmechanism 40 may be manufactured using any structurally sound material,preferably aluminum, an aluminum alloy or any other metal capable ofwithstanding hoop stresses resulting from high pressurization of thefiltration system housing during operation. The base 25 may include oneor more fluid outlet ports 27 for expelling fluid from the convertiblefiltration system 10, a fluid drain port 28 (see FIG. 9) for removingany excess fluids from the convertible filtration system, and an airpressure port 17 for inserting a gauge to measure and monitor thedifferential pressure prior to filtering and post-filtering of a fluid.The air pressure port 17 may be threaded to releasably attach the gaugeand secure the gauge while the convertible filtration system 10 is inoperation. In some embodiments, the base 25 may be permanentlyintegrated into the filtration system housing 11.

The filtration system housing 11 may include one or more fluid inletports 16 for the introduction of a contaminated fluid into theconvertible filtration system 10. The lid mechanism 40 may be releasablysecured to the filtration system housing 11 through a suitable securingmechanism, such as a plurality of spaced-apart lid mechanism handles 45,each attached to a respective rotation shaft 52 that is installed onrespective housing devises 47 positioned radially outward along an upperportion of the outer circumference of the filtration system housing 11.The housing devises 47 may each include clevis apertures 48 configuredto receive a clevis pin 50 therethrough (see FIGS. 1 and 3). Each of theclevis pins 50 may be used to fasten a hinge tab 46 and/or a pluralityof rotation shafts 52 attached to the lid mechanism handles 45 to thehousing devises 47. The hinge tab 46 may be attached to the lid 42 suchthat the lid 42 may be opened by applying an upward force on anoverhanging edge 43 of the lid 42 away from the housing upper edge 20such that the hinge tab 46 may rotate about the clevis pin 50 rotationalaxis and the housing upper edge 20 defining an upward facing opening 14of the filtration system housing 11 and exposing the interior 15 of thefiltration system housing. Alternatively, if the lid 42 has been removedfrom the housing upper edge 20, a user may apply a force on the uppersurface 44 of the lid 42 to cause the hinge tab 46 to rotate about theclevis pin 50 axis and create contact between the lid 42 lower surfaceand the housing upper edge 20 (see FIGS. 1 and 7). The lid mechanismhandles 45 may be used to retain peripheral sealing contact between thelid 42 and the housing upper edge 20. An O-ring 18 may be seated in ahousing upper edge groove 19 along the upper surface of the housingupper edge 20 to provide for the peripheral sealing contact between thelid 42 and the housing upper edge 20 (see FIG. 3). The hinge tab 46 maybe configured to align the lid 42 with the opening 14 and the housingupper edge 20 of the filtration system housing 11 to prevent theinadvertent release of the contaminated fluids through a misaligned lid42 on the filtration system housing 11 during operation of theconvertible filtration system 10 or in an overflow situation (e.g., thefiltration system housing 11 is filled with contaminated fluid beyondcapacity limits).

As noted above, the filtration system housing 11 may be configured toaccept a cartridge filter 72. Accordingly, FIGS. 1 and 2 illustrate acartridge filter assembly 70 in accordance with at least one embodiment.The cartridge filter 72 may comprise a variety of materials. Forinstance, the cartridge filter 72 may comprise a porous material 84 (seeFIG. 8) such as polyester felt or steel mesh. The cartridge filter 72may include a central hollow cavity 78 (see FIG. 8) for allowing a fluidto flow through the porous material, into the central hollow cavity 78of the cartridge filter 72, and into the base 25, preferably exitingthrough the one or more fluid outlet ports 27. When the lid 42 is in theopened position shown in FIG. 7, the cartridge filter 72 may be insertedinto the filtration system housing 11 through the opening 14 and securedinto place using a filter cap 74. The filter cap 74 may be manufacturedusing any suitable structural material, such as aluminum or high densityplastic. Additionally, the filter cap 74 may be configured to include anumber of filter cap stiffeners 76 which may be used to provideadditional structural support. The filter cap 74 may include a filtercap hole 77 configured to accommodate a stem 80 which may be attached toa filter cap handle 81. As will be described in greater detail below, inan embodiment, the filter cap handle 81 may be welded to the stem 80and, subsequently, a user may insert the assembly into the filter cap 74through the filter cap hole 77. Subsequently, the user may turn thefilter cap handle 81 (clockwise or counter-clockwise, depending on thedirection of threading on the stem 80 and the filter cap hole 77) tocompressively seal the upper surface 73 of the cartridge filter 72. Thismay prevent any contaminated fluid from entering the central hollowcavity 78 of the cartridge filter 72 from above and thus contaminatingany filtered fluids.

The filter cap handle 81 may include a plurality of filter cap handlearms 82 that a user may engage to provide sealing contact and pressurebetween the filter cap 74 and the upper surface 73 of the cartridgefilter 72. As illustrated in FIG. 2, the outer edge 83 of each of thefilter cap handle arms 82 may be shaped as a circular arc defined byusing the shape of the inner circumferential sidewall 13 of thefiltration system housing 11. This may enable the filter cap handle 81to have rotational contact with the housing inner sidewall 13 wheninserted into the filtration system housing 11. As will be illustratedbelow in connection with FIG. 8, the filtration system housing 11 mayinclude a filter cap handle insertion groove 21 for inserting, locking,and removing the cartridge filter assembly 70 from the filtration systemhousing 11.

As an alternative to the cartridge filter 72, a user of the convertiblefiltration system 10 may install a bag-type filter 38 in the filtrationsystem housing 11 to decontaminate a fluid introduced into the system.Accordingly, the filtration system housing 11 may be configured toaccept a filter basket 30 which may be used to accommodate a bag-typefilter 38. The filter basket 30 may include a filter basket rim 34around the periphery of the upper opening 32 of the filter basket 30.The filter basket rim 34 may extend radially outward from the peripheryof the upper opening such that the radius from the center of the filterbasket 30 to the filter basket rim 34 is greater than the radius fromthe center of the filter basket 30 to the periphery of the upperopening. As will be described in connection with FIG. 5, when the filterbasket 30 is introduced into the filtration system housing 11 throughthe opening 14, the filter basket rim 34 may rest on an internal basketsupport ridge or flange 22 positioned on an inner sidewall 13 of thehousing 12 below the inlet port 16. This may prevent the filter basket30 from moving laterally within the filtration system housing 11.Additionally, the filter basket rim 34 may prevent any contaminatedfluid introduced into the convertible filtration system 10 through thefluid inlet ports 16 by creating a barrier comprising the filter basketrim 34 and the basket support flange 22.

FIG. 3 is a longitudinal sectional view of the filtration system housing11 devoid of any filter assemblies or other filter components. As willbe illustrated and described in greater detail in connection with FIGS.4 and 5, the interior of the filtration system housing 11 may include anintegral basin 90 and a cartridge filter stabilizer flange 96 foraccommodating the cartridge filter 72. When the cartridge filter 72 isinstalled in the filtration system housing 11 as shown in FIG. 8, theintegral basin 90 and cartridge filter stabilizer flange 96 may preventcontaminated fluid from contaminating a filtered fluid flowing downwardthrough the central hollow cavity 78 of the cartridge filter 72 and intoa fluid exit volume 26 in the base 25. The integral basin 90 may includean opening or hole 95 that extends between an upper surface 93 of thebottom 91 of the integral basin 90 and a lower surface 94 of the bottomof the integral basin such that a filtered fluid may exit through thebottom of the central hollow cavity 78 of the cartridge filter 72,through the hole in the integral basin and into the fluid exit volume 26in the base 25. Subsequently, the filtered fluid may be expelled fromthe convertible filtration system 10 via the fluid outlet ports 27located along the periphery of the base 25. These internal componentsmay be created, for instance, using a metal machining process whenmanufacturing the filtration system housing 11. Alternatively, theseinternal components may be fabricated individually and subsequentlyattached to (e.g., welded) the filtration system housing 11 during themanufacturing process.

FIG. 4 is an enlarged view of a lower portion of the filtration systemhousing 11 shown in FIG. 3. As noted above, the base 25 may include oneor more fluid outlet ports 27 for expelling filtered, decontaminatedfluid from the convertible filtration system 10. Accordingly, theconvertible filtration system 10 may include one or more components toprevent contaminated fluid from contaminating filtered fluids and frombeing expelled through the fluid outlet ports 27.

In an embodiment, the hole 95 located through the center of the bottom91 of the integral basin 90 may be configured to dimensionally match thecentral hollow cavity 78 of the cartridge filter 72. Additionally, thebottom 91 of the integral basin 90 may be configured to match the formfactor of the lower surface 75 (see FIG. 8) of the cartridge filter 72.This may provide a sealing mechanism for the cartridge filter 72 suchthat no contaminated fluids may be introduced into any filtered fluidsthrough the lower surface 75 of the cartridge filter 72 or the bottom 91of the integral basin 90.

In addition to the integral basin 90, the base 25 of the filtrationsystem housing 11 may also include the cartridge filter stabilizerflange 96 for preventing a cartridge filter 72 from shifting laterallyduring normal operation of the convertible filtration system 10. Thecartridge filter stabilizer flange 96 may be integrally attached to theintegral basin 90 and the inner peripheral sidewall 13 of the filtrationsystem housing 11 to provide a barrier between the main housingcompartment 12 and the fluid exit volume 26 leading to the fluid outletports 27. If the filter basket 30 is used with the convertiblefiltration system 10 to accommodate a bag-type filter 38 (see FIG. 6),the integral basin 90 and cartridge filter stabilizer flange 96 mayfunction to funnel the filtered fluid into the fluid exit volume 26 forexpulsion through the fluid outlet ports 27. Since the filter basket rim34 may be positioned on the upper surface of the basket support flange22, contaminated fluids may not contaminate any filtered fluidsemanating from the bag-type filter 38 and through the filter basket 30into the filtration system housing 11.

FIG. 5 is an illustrative example of a longitudinal sectional view ofthe filtration system housing 11 of FIG. 3 showing the plurality ofcomponents that comprise the lid mechanism 40 and the basket supportflange 22. As noted above, the filtration system housing 11 includes thebasket support flange 22 for accommodating the filter basket 30 which inturn may be used to house a bag-type filter 38.

As noted above, the lid mechanism 40 may be used to operably seal thefiltration system housing 11 to prevent the discharge of contaminatedfluids through the upper opening 14. In an embodiment, the lid mechanism40 may comprise a plurality of lid mechanism handles 45 which may beused to engage and disengage the lid 42 from the housing upper edge 20(see FIGS. 5 and 6). Each of the lid mechanism handles 45 may beconnected to a respective rotation shaft 52 to allow the handles to berotated away from the lid 42. The rotation shaft 52 may be configured toaccept a clevis pin 50 which, as noted above, may be attached to aclevis housing 47 positioned radially on the peripheral outer surface ofthe filtration system housing 11. Accordingly, to install the lidmechanism handle 45 and rotation shaft 52, a user may position therotation shaft 52 in between the flanges 49 of the clevis housing 47 andslide the clevis pin 50 through the flanges and the rotation shaft. Onceinstalled, a user may grab a lid mechanism handle 45 and pull away fromthe lid 42 to disengage the lid 42 from the housing upper edge 20.

The lid 42 may be configured to have a plurality of recesses 54 (seeFIG. 7), each for accommodating the one or more lid mechanism handles45, rotation shaft 52 and a handle lock 56 when the handles are in theclosed position, as illustrated in FIG. 5. When the lid mechanism handle26 is in the closed position, the rotation shaft 52 and handle lock 56may be oriented such that these components are within the recess 54. Thehandle lock 56, located on the rotation shaft 52 at a position aligningwith the recess 54, may be used to generate friction with the recess 54when attempting to manipulate the handle 45 from a closed position. Thehandle lock 56 may be constructed using a sufficiently durable materialthat may be flexible upon sufficient shearing force. In this manner, thehandle lock 56 may be configured to prevent the lid mechanism handle 26from being opened accidentally without user intervention.

FIG. 6 is an illustrative example of a longitudinal sectional view ofthe filtration system housing 11 of FIG. 3 accommodating a bag-typefilter 38. In operation, a user may engage the lid mechanism 40 toremove the lid 42 from the housing upper edge 20. In an embodiment, auser may open the lid mechanism 40 by first grasping each of the lidmechanism handles 45 and applying sufficient rotational force away fromthe lid 42 to overcome the frictional force created between the lidrecess 54 and the handle lock 56 installed on the rotation shaft 52.Once the lid mechanism handles 45 have been disengaged from the lid 42,a user may open the lid 42 by applying an upward force on the lid tocause the lid 42 and hinge tab 46 to rotate around the clevis pin 50.This act may place the lid 42 in an open position away from the housingupper edge 20, exposing the interior 15 of the filtration system housing11.

Upon removing the lid 42 from the housing upper edge 20 of thefiltration system housing 11, a user may insert the filter basket 30through the now exposed opening 14 and into the filtration systemhousing 11 with the closed lower end 36 of the filter basket 30 beinginserted first. As noted above, the filter basket 30 may include thefilter basket rim 34 configured to sit on top of the basket supportflange 22 in the interior periphery of the filtration system housing 11.Thus, the filter basket 30 may not reach the bottom 91 of the integralbasin 90. The user may subsequently install a bag-type filter 38 intothe filter basket 30 such that the filter covers substantially theentire periphery of the filter basket 30. The user may then close theconvertible filtration system 10 by rotating the hinge tab 46 and lid 42around the clevis pin 50 axis and over the housing upper edge 20,engaging the lid mechanism handles 45 such that the handle locks 56 arefrictionally held within the lid recesses 54.

With the lid mechanism 40 engaged and the bag-type filter 38 in placewithin the filter basket 30 inside the filtration system housing 11, theuser may connect one or more devices to the fluid inlet port 16 forintroducing contaminated fluids into the filtration system housing 11.As the contaminated fluids are introduced into the filtration systemhousing 11 and into the bag-type filter 38, the bag-type filter mayremove any contaminants from the fluid. As noted above, any contaminantsremoved from a contaminated fluid may line the interior of the bag-typefilter 38. Accordingly, the filtered fluids may flow out of the bag-typefilter 38 and through the filter basket 30 into the lower portion of thefiltration system housing 11. The contaminated fluid being introducedthrough the fluid inlet ports 16 does not contaminate recently filteredfluids as the filter basket rim 34 and the basket support flange 22creates a barrier preventing the fluids from mixing. Accordingly, thefiltered fluids may flow down through the hole 95 located on the bottom91 of the integral basin 90 and into the fluid exit volume 26 in thebase 25. Any filtered fluids may then be expelled from the filtrationsystem housing 11 through one or more fluid outlet ports 27 for use,safe disposal or recycling.

Once the filtration process is complete, a user may again disengage thelid mechanism 40 to remove the lid 42 and proceed to remove the filterbasket 30 from the filtration system housing 11. To remove the filterbasket 30 and bag-type filter 38 from the filtration system housing 11,a user may reach into the filtration system housing 11 and pull thefilter basket out through the upper opening 14 of the filtration systemhousing 11. Then, the user may proceed to clean the filtration systemhousing 11 for further use. The user may also convert the convertiblefiltration system 10 for the use of cartridge filters 72.

FIGS. 7 and 8 are illustrative examples of the filtration system housing11 configured to accommodate the cartridge filter 72 in accordance withat least one embodiment. FIG. 7 provides a perspective view of thefiltration system housing 11 showing the stem 80 and filter cap handle81 used to secure and seal the cartridge filter 72 within the filtrationsystem housing 11. FIG. 8 is a longitudinal sectional view of thefiltration system housing 11 illustrated in FIG. 7. In an embodiment, auser may introduce the cartridge filter 72 into the filtration systemhousing 11 by first inserting the cartridge filter 72 into the opening14 such that the lower surface of the cartridge filter 72 rests on theupper surface 93 of the bottom 91 of the integral basin 90. The integralbasin 90, as noted above, includes the hole 95 centrally located on thebottom 91 of the integral basin 90 that may be aligned with the hollowcentral hollow cavity 78 of the cartridge filter 72. The integral basin90 may also include a basin retention lip 92 (see FIG. 6) which may beused to provide a barrier between the contaminated fluid in theperiphery of the cartridge filter 72 and the filtered fluid flowingthrough the central hollow cavity 78 of the cartridge filter 72. Thecartridge filter stabilizer flange 96 may be used to stabilize thecartridge filter 72 within the integral basin 90 and may act as anadditional barrier to prevent the contamination of any filtered fluids.The cartridge filter stabilizer flange 48 may also provide a guide forthe user as to the proper installation of the cartridge filter 72 withinthe filtration system housing 11.

In an embodiment, once a user has inserted a cartridge filter 72 intothe filtration system housing 11 such that the cartridge filter lowersurface 75 of the cartridge filter 72 is resting on the upper surface 93of the bottom 91 of the integral basin 90, the user may apply the filtercap 74 to the upper surface 73 of the cartridge filter 72. This filtercap 74 may cover the central hollow cavity of the cartridge filter 72such that no contaminated fluids may enter the central hollow cavityfrom above. The filter cap 74 may be designed to match the form factorof the cartridge filter 72 such that different filter caps 74 may beconfigured and utilized depending on the type of cartridge filter 72used. The filter cap 74 may be designed with additional structuralmembers, such as the plurality of filter cap stiffeners 76 configured toprovide greater structural integrity to the filter cap 74. The filtercap 74 may additionally include the filter cap hole 77 to accommodate astem 80 and filter cap handle 81. The filter cap hole 77 may be threadedto match the threading on the stem 80. By threading the filter cap hole77 and the stem 80, no contaminated fluid may enter the central hollowcavity 78 of the cartridge filter 72 through the filter cap hole 77.

Once the filter cap 74 has been placed on the upper surface 73 of thecartridge filter 72, a user may insert the stem 80 into the filter caphole 77. Subsequently, the user may attach a filter cap handle 81 to thestem 80 by rotating the filter cap handle 81 onto the stem 80. As notedabove, the stem 80 may be threaded such that it may threadably engageinternal threads of the filter cap hole 77. Accordingly, the filter caphandle 81 may also have a threaded hole 85 through the center of thefilter cap handle 81 that matches the threading on the stem 80 andenables installation of the filter cap handle 81 onto the stem 80. Theengagement between the stem 80 and the filter cap handle 81 may be awelded interface which may allow for the welding of the stem to thefilter cap handle in order to create a permanent engagement between thestem and filter cap handle. The filter cap handle 81 may be configuredsuch that the outer periphery of each of the arms 82 of the filter caphandle 81 is shaped to match the inner periphery of the filtrationsystem housing 11. For instance, the filter cap handle arm edge 83 maybe configured with a rounded edge based on the circumference of theinner circumferential sidewall 13 of the filtration system housing 11.This may enable each filter cap handle arm edge 83 to have rotationalcontact with the filtration system housing upper edge 20. This shape mayalso help ensure that the stem 80 is aligned properly with the filtercap hole 77 to facilitate installation of the filter cap 74 onto thecartridge filter 72. A user may rotate the filter cap handle 81 in thedirection of the stem 80 threading, generating sealing pressure betweenthe filter cap 74 and the cartridge filter 72. Additionally, this actionmay generate additional downward force on the cartridge filter 72 suchthat there is further sealing pressure between the lower surface 75 ofthe cartridge filter 72 and the upper surface of the bottom 91 of theintegral basin 90.

Since the filter cap handle 81 may have contact with the filtrationsystem housing upper edge 20, the filtration system housing upper edgemay include the plurality of filter cap handle insertion grooves 21. Asillustrated in FIGS. 7 and 8, the housing upper edge 20 may includefilter cap handle grooves 21 located at opposite ends of the housingupper edge 20. This may coincide with the number of arms 82 of thefilter cap handle 81. Thus, a user may rotate the filter cap handle 81until it reaches the filter cap handle grooves 21. At this point, theuser may remove the cartridge filter assembly 70 by applying an upwardpulling force on the filter cap handle 81. Alternatively, a user mayinsert the entire cartridge filter assembly 70, pre-installed, into thefiltration system housing 11 by aligning the filter cap handle 81 withthe filter cap handle grooves 21, inserting the cartridge filterassembly into the filtration system housing 11, and rotating the filtercap handle 81 such that the housing upper edge 20 may prevent thecartridge filter assembly 70 from being inadvertently removed.

After the cartridge filter 72 has been installed in the filtrationsystem housing 11 and the lid mechanism 40 has been engaged such thatthe lid 42 is positioned over the housing upper edge 20 and sealed, auser may introduce contaminated fluids through one or more fluid inletports 16 located along the outer periphery of the filtration systemhousing 11. As the contaminated fluids enter the filtration systemhousing 11, the fluids may flow through the porous materials 84 (seeFIG. 8) of the cartridge filter 72, leaving behind any contaminants inthe filtration medium. Accordingly, the fluid that enters the centralhollow cavity 78 of the cartridge filter 72 may be filtered fluids thatmay be devoid of any contaminants. The filtered fluids may flow out ofthe central hollow cavity 78, through the hole 95 in the integral basin90 and into the fluid exit volume 26 in the base 25. Subsequently, thefiltered fluids may be expelled from the filtration system housing 12through one or more fluid outlet ports 27.

Once the contaminated fluids have been filtered through the convertiblefiltration system 10, a user may again disengage the lid mechanism 40 bydisengaging the lid mechanism handles 45 and applying a force on the lid42, causing the hinge tab 46 and the lid 42 to rotate about the clevispin 50 axis, removing the lid 42 from the housing upper edge 20. Oncethe lid 42 has been removed, a user may use the filter cap handle 81 torotate the cartridge filter assembly until the filter cap handle 81 isaligned with the plurality of filter cap handle insertion grooves 21. Auser may subsequently pull the cartridge filter assembly from thefiltration system housing 11. The user may then remove the filter caphandle 81, stem 80, and filter cap 74 to expose the cartridge filter 72for disposal or cleaning for reuse at a later time.

FIG. 9 provides a perspective view of the filtration system housing 11showing the lid mechanism engaged to the housing and various componentsthat comprise the filtration system 10. As noted above, filtered fluidsmay be expelled from the filtration system housing 12 through one ormore fluid outlet ports 27 located on the base 25. The base 25 mayadditionally include the fluid drain port 28 for releasing any excessfluid that may remain in the fluid exit volume 26 after expulsion of thefiltered fluids through the fluid outlet ports 27. The fluid drain port28 may additionally serve to add another drainage location when thefiltration system 10 is cleaned or maintained.

Preferred embodiments of this disclosure are described herein, includingthe best mode known to the inventors for carrying out the invention.Variations of those preferred embodiments may become apparent to thoseof ordinary skill in the art upon reading the foregoing description. Theinventors expect skilled artisans to employ such variations asappropriate and the inventors intend for embodiments of the presentdisclosure to be practiced otherwise than as specifically describedherein. Accordingly, the scope of the present disclosure includes allmodifications and equivalents of the subject matter recited in theclaims appended hereto as permitted by applicable law. Moreover, anycombination of the above-described elements in all possible variationsthereof is encompassed by the scope of the present disclosure unlessotherwise indicated herein or otherwise clearly contradicted by context.

All references, including publications, patent applications and patents,cited herein are hereby incorporated by reference to the same extent asif each reference were individually and specifically indicated to beincorporated by reference and were set forth in its entirety herein.

What is claimed is:
 1. A convertible filtration system for use withcartridge filters and bag-type filters, comprising: a filtration systemhousing including a substantially cylindrical housing sidewall, a fluidinlet port extending through the housing sidewall for the introductionof contaminated fluids into the filtration system housing, and a basketsupport flange attached to an inner surface of the housing sidewall forsupporting a filter basket used for bag-type filters; a base portioncomprising a substantially cylindrical base sidewall having an upperopen end coupled to a lower open end of the housing sidewall, a lowerclosed end opposite of the upper open end, an integral basin attached toan inner surface of the base sidewall for supporting a cartridge filter,a fluid outlet port extending through the base sidewall below theintegral basin for expelling filtered fluids from the filtration systemhousing, and a fluid drain port extending through the base sidewallbelow the fluid outlet port for draining excess fluids from thefiltration system housing; and a lid mechanism configured to selectivelycover an upper open end of the filtration system housing.
 2. Theconvertible filtration system of claim 1, wherein the lid mechanism isreleasably attachable to an upper open end of the filtration systemhousing through one or more housing devises integrally attached to anouter periphery of the housing sidewall circumferentially surroundingthe upper open end of the housing sidewall to form a sealing pressurebetween the lid mechanism and the filtration system housing, providing aclosed end over the upper open end of the housing sidewall.
 3. Theconvertible filtration system of claim 1, wherein the base portion isintegrally formed with the filtration system housing such that thesubstantially cylindrical base sidewall is continuous with the housingsidewall.
 4. The convertible filtration system of claim 1, wherein thebasket support flange is configured to support a filter basket rim ofthe filter basket along a peripheral upper surface of the basket supportflange, the filter basket rim located adjacent an open end of the filterbasket used for bag-type filters.
 5. The convertible filtration systemof claim 1, wherein the integral basin includes a bottom portioncomprising a hole centrally located therein for allowing filtered fluidsto enter the base from the filtration system housing.
 6. The convertiblefiltration system of claim 5, wherein the integral basin furthercomprises a sidewall extending upwardly from the bottom portion having adiameter slightly larger than an outer diameter of a lower portion ofthe cartridge filter to restrict lateral movement of the cartridgefilter when disposed within the integral basin.
 7. The convertiblefiltration system of claim 5, wherein the filtered fluids can only enterthe base from the filtration system housing through the hole centrallylocated in the bottom portion of the integral basin.
 8. The convertiblefiltration system of claim 5, wherein the hole is sized to correspond toa central hollow cavity of the cartridge filter.
 9. The convertiblefiltration system of claim 5, wherein the integral basin is attached toa cartridge filter stabilizer flange along an upper peripheralcircumference of a side wall of the integral basin, the cartridge filterstabilizer flange being attached to an inner surface of the housingsidewall.
 10. The convertible filtration system of claim 1, wherein thelid mechanism includes a lid, a plurality of lid mechanism handles and ahinge tab for sealing the lid over a housing upper edge of thefiltration system housing.
 11. The convertible filtration system ofclaim 10, wherein the housing sidewall comprises one or more housingdevises disposed near the upper open end, and each of the plurality oflid mechanism handles comprises a rotation shaft configured to receive aclevis pin attached to one of the one or more housing devises.
 12. Theconvertible filtration system of claim 11, wherein each of the rotationshafts includes a handle lock configured to provide frictional contactbetween the lid mechanism handles and the lid.
 13. The convertiblefiltration system of claim 12, wherein the lid includes a plurality ofrecesses along an outer circumferential periphery thereof eachconfigured to receive one of the handle locks and its correspondingrotation shaft for the frictional contact between the lid mechanismhandles and the lid.
 14. The convertible filtration system of claim 10,wherein the hinge tab is configured to operably attach an upper surfaceof the lid and receive a clevis pin attached to a housing clevisdisposed near the upper open end, thereby allowing the hinge tab torotate about a clevis pin axis passing through the clevis pin uponapplying an upward force to a location on the lid spaced apart from thehinge tab.
 15. A filtration system for filtering a contaminated fluid toa filtered fluid, comprising: a filtration system housing having anupper portion and a lower portion; a basket support flange disposed onan inner surface of the upper portion of the filtration system housing,the basket support flange being configured to receive a rim of a filterbasket to fix the filter basket in a lateral direction; and a cartridgefilter stabilizer flange disposed on an inner surface of the lowerportion of the filtration system housing, the cartridge filterstabilizer flange being configured to receive a cartridge filter to fixthe cartridge filter in a lateral direction; wherein the filtrationsystem is selectively convertible for receiving one of the filter basketor the cartridge filter; wherein: in response to receiving the filterbasket, the basket support flange prevents introduction of thecontaminated fluid with the filtered fluid; and in response to receivingthe cartridge filter, the cartridge filter stabilizer flange preventsintroduction of the contaminated fluid with the filtered fluid.
 16. Thefiltration system of claim 15, wherein in response to receiving thefilter basket, the cartridge filter stabilizer flange is configured tofunnel the filtered fluid into a fluid exit volume of the lower portionof the filtration system housing.
 17. The filtration system of claim 15,wherein the filter basket is configured to house a bag-type filter. 18.The filtration system of claim 15, further comprising a lid mechanismconfigured to selectively cover an upper open end of the filtrationsystem housing.
 19. The filtration system of claim 18, wherein the lidmechanism includes a lid, a plurality of lid mechanism handles and ahinge tab for sealing the lid over a housing upper edge of thefiltration system housing.
 20. The filtration system of claim 15,wherein the filtration system includes: a fluid inlet port extendingthrough a housing sidewall in the upper portion of the filtration systemhousing for introducing the contaminated fluid into the filtrationsystem housing; and a fluid outlet port extending through the housingsidewall in the lower portion of the filtration system housing forexpelling the filtered fluid from the filtration system housing.